自主语言转换中的双语控制机制

doi:10.3724/SP.J.1042.2026.0097

摘要/Abstract

摘要：

自主语言转换指双语者自发进行的语言转换。相较于强制性语言转换, 自主语言转换在高词汇通达度和高语言自由度的情况下所带来的转换代价显著降低, 甚至趋于消失。神经影像研究显示自主语言转换条件下抑制控制网络激活较弱, 同时额外调动了与自我意愿和自发行为相关的脑机制。自主转换中的双语控制机制与二语熟练度、情境及个体的执行控制能力密切相关。未来研究需整合个体与环境因素, 构建更精细的动态模型; 结合真实行为模式和实验室测量, 深化对神经机制探索; 开展纵向追踪研究并关注产出−理解交互, 推动自主语言转换在认知优势及学习效率等方面的转化与提升。

关键词: 自主语言转换, 强制语言转换, 抑制控制, 语境, 执行控制

Abstract:

Voluntary language switching refers to the language switching that occurs spontaneously among bilinguals. While forced language switching tasks require bilinguals to select language based on external cues (e.g., color of frames or national flags), voluntary switching tasks provide a context where bilinguals may freely select their intended language on any given trial (e.g., via instructions). It echoes the dense code-switching context described in the Adaptive Control Hypothesis (Green & Abutalebi, 2013), where bilinguals rely more on opportunistic planning and less on conflict monitoring or interference suppression. By contrast, forced switching tasks parallel the dual-language context, which places higher demands on executive control processes such as interference suppression, goal maintenance, and conflict monitoring. Indeed, recent studies suggest that, compared with forced language switching,voluntary language switching does not necessarily impose a cognitive burden. As a result, switching cost can be markedly reduced or even eliminated when switching is driven by bottom-up lexical access or when speakers have full freedom to maintain language consistency.
Neuroimaging evidence indicates that voluntary language switching is characterized by distinct neural activation patterns in contrast to forced language switching. It differs both in the intensity of neural activation and in the temporal locus of inhibitory control. Voluntary switching not only engages brain regions implicated in inhibitory control (e.g., the right inferior frontal gyrus) but also recruits additional areas associated with self-initiated decision-making (e.g., the medial prefrontal cortex). More specifically, the process unfolds in distinct temporal stages. During the early phase of language selection, voluntary switching recruits neural mechanisms related to free decision-making (e.g., bilateral frontoparietal and medial prefrontal cortices). In contrast, during the later stages of speech execution, it elicits reduced activation in classical language control regions.In naturalistic contexts, the reduced reliance on inhibitory control may facilitate a more efficient allocation of neural resources. These findings highlight the critical role of intention formation and prospective planning, rather than inhibitory control per se, in voluntary switching. Taken together, the evidence suggests that voluntary switching relies more heavily on mechanisms of intention generation and anticipatory planning than on reactive inhibition.
Bilingual control in voluntary language switching is shaped by second language(L2) proficiency, contextual factors, and individual executive control abilities. L2 proficiency influences language selection preferences and may modulate the extent of proactive control at the global level. Contextual factors—including non-linguistic contexts (e.g., interlocutor settings and emotional states) and linguistic contexts (e.g., sentence contexts)—may induce adaptive changes of both proactive and reactive language control at the global and local levels. Furthermore, voluntary switching is also closely associated with domain-general executive control components, such as inhibitory control, working memory, and conflict monitoring. Importantly, different forms of voluntary switching (e.g., conscious vs. unconscious; intra-sentential vs. inter-sentential) may recruit distinct cognitive control mechanisms. Furthermore, individual differences—including age and patterns of language use—can significantly moderate these relationships. Therefore, the Adaptive Control Hypothesis may require further refinement by incorporating dynamic individual and contextual factors—such as individual language use habits and socio-cultural norms—to more adequately capture the complexities of real-world bilingual communication.
Future research on voluntary language switching should integrate individual factors (e.g., language proficiency, usage habits, executive control) and contextual factors (e.g., sentence context, interlocutors) to develop more refined and dynamic models of bilingual control. While existing work has begun to probe the mechanisms and determinants of voluntary switching, further advances will require methodological innovation and broader research approaches. In particular, future studies should connect complex behavioral patterns in naturalistic social contexts with standardized laboratory measures to better elucidate the underlying neural mechanisms. For instance, functional near-infrared spectroscopy (fNIRS) and virtual reality (VR) technologies could be utilized to construct multimodal conversational scenarios. Longitudinal designs are also needed to examine the long-term effects of voluntary switching on cognitive development and neural adaptation. Moreover, it remains unclear how comprehension and production differ and interact in voluntary switching and examine how they jointly shape cognitive control. The cognitive costs associated with producing and comprehending spontaneous code-switching may be a key factor influencing the communicative efficiency for both interlocutors. This line of research may shed light on the distinction between domain-specific and shared control processes and provide insights for bilingual education and second language learning.

Key words: voluntary language switching, forced language switching, inhibitory control, context, executive control

中图分类号:

B842

庄滨源, 杨静. (2026). 自主语言转换中的双语控制机制. 心理科学进展 , 34(1), 97-107.

ZHUANG Binyuan, YANG Jing. (2026). Bilingual control mechanism in voluntary language switching. Advances in Psychological Science, 34(1), 97-107.

参考文献 69

[1]	Arrington C. M., & Logan G. D. (2004). The cost of a voluntary task switch. Psychological Science, 15(9), 610-615. pmid: 15327632
[2]	Blanco-Elorrieta E., & Caramazza A. (2021). A common selection mechanism at each linguistic level in bilingual and monolingual language production. Cognition, 213, 104625.
[3]	Blanco-Elorrieta E., Kastner I., Emmorey K., & Pylkkänen L. (2018). Shared neural correlates for building phrases in signed and spoken language. Scientific Reports, 8(1), 5492.
[4]	Blanco-Elorrieta E., & Pylkkanen L. (2017). Bilingual language switching in the laboratory versus in the wild: The spatiotemporal dynamics of adaptive language control. Journal of Neuroscience, 37(37), 9022-9036. doi: 10.1523/JNEUROSCI.0553-17.2017 pmid: 28821648
[5]	Bonfieni M., Branigan H. P., Pickering M. J., & Sorace A. (2019). Language experience modulates bilingual language control: The effect of proficiency, age of acquisition, and exposure on language switching. Acta Psychologica, 193, 160-170. doi: S0001-6918(17)30590-5 pmid: 30640064
[6]	Calabria M., Hernández M., Branzi F. M., & Costa A. (2012). Qualitative differences between bilingual language control and executive control: Evidence from task-switching. Frontiers in Psychology, 2, 399.
[7]	Christoffels I. K., Firk C., & Schiller N. O. (2007). Bilingual language control: An event-related brain potential study. Brain Research, 1147, 192-208. pmid: 17391649
[8]	Costa A., & Santesteban M. (2004). Lexical access in bilingual speech production: Evidence from language switching in highly proficient bilinguals and L2 learners. Journal of Memory and Language, 50(4), 491-511.
[9]	Coumel M., Liu C., Trenkic D., & de Bruin A. (2024). Do accent and input modality modulate processing of language switches in bilingual language comprehension? Journal of Experimental Psychology: Human Perception and Performance, 50(4), 395-415. doi: 10.1037/xhp0001190 pmid: 38386392
[10]	de Bruin A., & Martin C. D. (2022). Perro or txakur? Bilingual language choice during production is influenced by personal preferences and external primes. Cognition, 222, 104995.
[11]	de Bruin A., Samuel A. G., & Duñabeitia J. A. (2018). Voluntary language switching: When and why do bilinguals switch between their languages? Journal of Memory and Language, 103, 28-43.
[12]	de Bruin A., Samuel A. G., & Duñabeitia J. A. (2020). Examining bilingual language switching across the lifespan in cued and voluntary switching contexts. Journal of Experimental Psychology: Human Perception and Performance, 46(8), 759-788. doi: 10.1037/xhp0000746 pmid: 32324035
[13]	de Bruin A., & Shiron V. (2024). Putting language switching in context: Effects of sentence context and interlocutors on bilingual switching. Journal of Experimental Psychology: Learning, Memory, and Cognition, 50(7), 1112-1132.
[14]	de Bruin A., & Xu T. (2023). Language switching in different contexts and modalities: Response-stimulus interval influences cued-naming but not voluntary-naming or comprehension language-switching costs. Bilingualism: Language and Cognition, 26(2), 402-415.
[15]	Declerck M. (2020). What about proactive language control? Psychonomic Bulletin & Review, 27(1), 24-35.
[16]	Declerck M., & Grainger J. (2017). Inducing asymmetrical switch costs in bilingual language comprehension by language practice. Acta Psychologica, 178, 100-106. doi: S0001-6918(16)30263-3 pmid: 28646654
[17]	Declerck M., Grainger J., Koch I., & Philipp A. M. (2017). Is language control just a form of executive control? Evidence for overlapping processes in language switching and task switching. Journal of Memory and Language, 95, 138-145.
[18]	Declerck M., Meade G., Midgley K. J., Holcomb P. J., Roelofs A., & Emmorey K. (2021). On the connection between language control and executive control—An ERP study. Neurobiology of Language, 2(4), 628-646. doi: 10.1162/nol_a_00032 pmid: 37214623
[19]	Declerck M., & Philipp A. M. (2015). A review of control processes and their locus in language switching. Psychonomic Bulletin & Review, 22(6), 1630-1645.
[20]	DeLuca V., Segaert K., Mazaheri A., & Krott A. (2020). Understanding bilingual brain function and structure changes? U bet! A unified bilingual experience trajectory model. Journal of Neurolinguistics, 56, 100930.
[21]	Desmurget M., Reilly K. T., Richard N., Szathmari A., Mottolese C., & Sirigu A. (2009). Movement intention after parietal cortex stimulation in humans. Science, 324(5928), 811-813. doi: 10.1126/science.1169896 pmid: 19423830
[22]	Dijkstra T., & Van Heuven W. J. (2002). The architecture of the bilingual word recognition system: From identification to decision. Bilingualism: Language and Cognition, 5(3), 175-197.
[23]	Geng L., Zhao X., Xu Q., Wu H., Hu X., Liu Z.,... Yang Y. (2024). Cognitive and neural mechanisms of voluntary versus forced language switching in Chinese-English bilinguals: An fMRI study. Cerebral Cortex, 34(2), bhae042.
[24]	Gollan T. H., & Ferreira V. S. (2009). Should I stay or should I switch? A cost-benefit analysis of voluntary language switching in young and aging bilinguals. Journal of Experimental Psychology: Learning, Memory, and Cognition, 35(3), 640-665.
[25]	Gollan T. H., & Goldrick M. (2018). A switch is not a switch: Syntactically-driven bilingual language control. Journal of Experimental Psychology: Learning, Memory, and Cognition, 44(1), 143-156.
[26]	Gollan T. H., Kleinman D., & Wierenga C. E. (2014). What’s easier: Doing what you want, or being told what to do? Cued versus voluntary language and task switching. Journal of Experimental Psychology: General, 143(6), 2167-2195.
[27]	Gosselin L., & Sabourin L. (2023). Language athletes: Dual-language code-switchers exhibit inhibitory control advantages. Frontiers in Psychology, 14, 1150159.
[28]	Green D. W. (1998). Mental control of the bilingual lexico- semantic system. Bilingualism: Language and Cognition, 1(2), 67-81.
[29]	Green D. W., & Abutalebi J. (2013). Language control in bilinguals: The adaptive control hypothesis. Journal of Cognitive Psychology, 25(5), 515-530. pmid: 25077013
[30]	Gross M., & Kaushanskaya M. (2015). Voluntary language switching in English-Spanish bilingual children. Journal of Cognitive Psychology, 27(8), 992-1013. pmid: 26889376
[31]	Han X., Li W., & Filippi R. (2022). The effects of habitual code-switching in bilingual language production on cognitive control. Bilingualism: Language and Cognition, 25(5), 869-889.
[32]	Han X., Wei L., & Filippi R. (2024). Modulating bilingual language production and cognitive control: How bilingual language experience matters. Bilingualism: Language and Cognition, 28(1), 120-134.
[33]	Hasson U., Egidi G., Marelli M., & Willems R. M. (2018). Grounding the neurobiology of language in first principles: The necessity of non-language-centric explanations for language comprehension. Cognition, 180, 135-157. doi: S0010-0277(18)30170-7 pmid: 30053570
[34]	Hernandez A. E. (2009). Language switching in the bilingual brain: What’s next? Brain and Language, 109(2-3), 133-140. doi: 10.1016/j.bandl.2008.12.005 pmid: 19250662
[35]	Jevtović M., Duñabeitia J. A., & de Bruin A. (2020). How do bilinguals switch between languages in different interactional contexts? A comparison between voluntary and mandatory language switching. Bilingualism: Language and Cognition, 23(2), 401-413.
[36]	Jiang S., Meng Y., & Chen B. (2024). The impact of emotional states on bilingual language control in cued and voluntary switching contexts. Journal of Memory and Language, 137, 104527.
[37]	Jiao L., Gao Y., Schwieter J. W., Li L., Zhu M., & Liu C. (2022a). Control mechanisms in voluntary versus mandatory language switching: Evidence from ERPs. International Journal of Psychophysiology, 178, 43-50.
[38]	Jiao L., Meng N., Wang Z., Schwieter J. W., & Liu C. (2022b). Partially shared neural mechanisms of language control and executive control in bilinguals: Meta-analytic comparisons of language and task switching studies. Neuropsychologia, 172, 108273.
[39]	Jylkkä J., Laine M., & Lehtonen M. (2021). Does language switching behavior rely on general executive functions? Bilingualism: Language and Cognition, 24(3), 583-595.
[40]	Kapiley K., & Mishra R. K. (2024). Language contexts induced by the interlocutors’ proficiencies modulate bilingual language monitoring. Bilingualism: Language and Cognition, 27(5), 994-1007.
[41]	Kleinman D., & Gollan T. H. (2016). Speaking two languages for the price of one: Bypassing language control mechanisms via accessibility-driven switches. Psychological science, 27(5), 700-714. doi: 10.1177/0956797616634633 pmid: 27016240
[42]	Kootstra G. J., Dijkstra T., & Van Hell J. G. (2020). Interactive alignment and lexical triggering of code- switching in bilingual dialogue. Frontiers in Psychology, 11, 1747. doi: 10.3389/fpsyg.2020.01747 pmid: 32793070
[43]	Lai G., & O’Brien B. A. (2020). Examining language switching and cognitive control through the adaptive control hypothesis. Frontiers in Psychology, 11, 1171. doi: 10.3389/fpsyg.2020.01171 pmid: 32793018
[44]	Lau H. C., Rogers R. D., Haggard P., & Passingham R. E. (2004). Attention to intention. Science, 303(5661), 1208-1210. pmid: 14976320
[45]	Li C., Midgley K. J., Ferreira V. S., Holcomb P. J., & Gollan T. H. (2024). Different language control mechanisms in comprehension and production: Evidence from paragraph reading. Brain and Language, 248, 105367.
[46]	Li Y., Yang J., Suzanne Scherf K., & Li P. (2013). Two faces, two languages: An fMRI study of bilingual picture naming. Brain & Language, 127(3), 452-462.
[47]	Liu C., Li L., Jiao L., & Wang R. (2021). Bilingual language control flexibly adapts to cultural context. Frontiers in Psychology, 12, 744289.
[48]	Liu H., Tong J., de Bruin A., Li W., He Y., & Li B. (2020). Is inhibition involved in voluntary language switching? Evidence from transcranial direct current stimulation over the right dorsolateral prefrontal cortex. International Journal of Psychophysiology, 147, 184-192. doi: S0167-8760(19)30552-5 pmid: 31830498
[49]	López-Penadés R., Sanchez-Azanza V. A., Aguilar- Mediavilla E., Buil-Legaz L., & Adrover-Roig D. (2020). Associations of natural language switching with executive control in early bilinguals. Bilingualism: Language and Cognition, 23(5), 1008-1019.
[50]	Ma F., Li S., & Guo T. (2016). Reactive and proactive control in bilingual word production: An investigation of influential factors. Journal of Memory and Language, 86, 35-59.
[51]	Meuter R. F., & Allport A. (1999). Bilingual language switching in naming: Asymmetrical costs of language selection. Journal of Memory and Language, 40(1), 25-40.
[52]	Mooijman S., Schoonen R., Ruiter M. B., & Roelofs A. (2024). Voluntary and cued language switching in late bilingual speakers. Bilingualism: Language and Cognition, 27(4), 610-627.
[53]	Mosca M., Manawamma C., & de Bot K. (2022). When language switching is cost‐free: The effect of preparation time. Cognitive Science, 46(2), e13105.
[54]	Myers-Scotton C., & Jake J. L. (2020). Matching lemmas in a bilingual language competence and production model: Evidence from intrasentential code-switching. In Wei, L. (Ed.), The bilingualism reader (pp. 244-279). Routledge.
[55]	Olson D. J. (2017). Bilingual language switching costs in auditory comprehension. Language, Cognition and Neuroscience, 32(4), 494-513.
[56]	Patel T., Morales M., Pickering M. J., & Hoffman P. (2023). A common neural code for meaning in discourse production and comprehension. NeuroImage, 279, 120295.
[57]	Poplack S. (1980). Sometimes I’ll start a sentence in Spanish Y TERMINO EN ESPAÑOL: Toward a typology of code-switching¹. Linguistics, 18(7-8), 581-618.
[58]	Reverberi C., Kuhlen A., Abutalebi J., Greulich R. S., Costa A., Seyed-Allaei S., & Haynes J. D. (2015). Language control in bilinguals: Intention to speak vs. execution of speech. Brain and Language, 144, 1-9. doi: 10.1016/j.bandl.2015.03.004 pmid: 25868150
[59]	Reverberi C., Kuhlen A. K., Seyed-Allaei S., Greulich R. S., Costa A., Abutalebi J., & Haynes J. D. (2018). The neural basis of free language choice in bilingual speakers: Disentangling language choice and language execution. NeuroImage, 177, 108-116. doi: S1053-8119(18)30430-0 pmid: 29753107
[60]	Salig L. K., Kroff J. R. V., Slevc L. R., & Novick J. M. (2024). Linking frequency to bilingual switch costs during real-time sentence comprehension. Bilingualism: Language and cognition, 27(1), 25-40.
[61]	Sánchez L. M., Struys E., & Declerck M. (2022). Ecological validity and bilingual language control: Voluntary language switching between sentences. Language, Cognition and Neuroscience, 37(5), 615-623.
[62]	Tao L., Wang G., Zhu M., & Cai Q. (2021). Bilingualism and domain-general cognitive functions from a neural perspective: A systematic review. Neuroscience & Biobehavioral Reviews, 125, 264-295.
[63]	Van Hell J. G., & De Groot A. M. (2008). Sentence context modulates visual word recognition and translation in bilinguals. Acta psychologica, 128(3), 431-451. doi: 10.1016/j.actpsy.2008.03.010 pmid: 18486085
[64]	Wu W., Morales M., Patel T., Pickering M. J., & Hoffman P. (2022). Modulation of brain activity by psycholinguistic information during naturalistic speech comprehension and production. Cortex, 155, 287-306. doi: 10.1016/j.cortex.2022.08.002 pmid: 36075141
[65]	Yao Z., Chai Y., Zhao R., & Wang F. (2025). The effects of language switching experience and acute stress on bilingual advantages in cognitive flexibility. International Journal of Bilingualism, 29(4), 863-882.
[66]	Zada Z., Goldstein A., Michelmann S., Simony E., Price A., Hasenfratz L.,... Hasson U. (2024). A shared model-based linguistic space for transmitting our thoughts from brain to brain in natural conversations. Neuron, 112(18), 3211-3222. doi: 10.1016/j.neuron.2024.06.025 pmid: 39096896
[67]	Zhang Y., Zhao J., Huang H., Zhang Z., Wu S., Qiu J., & Wu Y. J. (2024). Neuroimaging evidence dissociates forced and free language selection during bilingual speech production. Bilingualism: Language and Cognition, 28(1), 198-207.
[68]	Zhu J. D., Blanco-Elorrieta E., Sun Y., Szakay A., & Sowman P. F. (2022). Natural vs forced language switching: Free selection and consistent language use eliminate significant performance costs and cognitive demands in the brain. Neuroimage, 247, 118797.
[69]	Zhuang B., Liang L., & Yang J. (2023). When interlocutor's face-language matching alters: An ERP study on face contexts and bilingual language control in mixed-language picture naming. Frontiers in Psychology, 14, 1134635.